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https://github.com/rdkit/rdkit.git
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147 lines
6.5 KiB
C++
147 lines
6.5 KiB
C++
//
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// Copyright (C) 2014 Novartis Institutes for BioMedical Research
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//
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// @@ All Rights Reserved @@
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// This file is part of the RDKit.
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// The contents are covered by the terms of the BSD license
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// which is included in the file license.txt, found at the root
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// of the RDKit source tree.
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//
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#pragma once
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#include <list>
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#include <vector>
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#include <string>
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#include <stdexcept>
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#include "../RDKitBase.h"
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//#include "../Fingerprints/MorganFingerprints.h"
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#include "Graph.h"
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#include "Seed.h"
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#include "DebugTrace.h" // algorithm filter definitions
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namespace RDKit {
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namespace FMCS {
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class SubstructureCache {
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public:
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#pragma pack(push,1)
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struct KeyNumericMetrics {
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typedef unsigned long long TValue;
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TValue Value;
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public:
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KeyNumericMetrics() : Value(0) {}
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};
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#pragma pack(pop)
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struct HashKey {
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KeyNumericMetrics NumericMetrics;
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public:
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void computeKey (const Seed& seed, const std::vector<unsigned>& queryAtomLabels, const std::vector<unsigned>& queryBondLabels) {
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computeMorganCodeHash(seed, queryAtomLabels, queryBondLabels);
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}
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private:
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void computeMorganCodeHash(const Seed& seed
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, const std::vector<unsigned>& queryAtomLabels, const std::vector<unsigned>& queryBondLabels) {
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size_t nv = seed.getNumAtoms();
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size_t ne = seed.getNumBonds();
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std::vector<unsigned long> currCodes(nv);
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std::vector<unsigned long> prevCodes(nv);
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size_t nIterations = seed.getNumBonds();
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if (nIterations > 5)
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nIterations = 5;
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for(unsigned seedAtomIdx = 0; seedAtomIdx < seed.getNumAtoms(); seedAtomIdx++)
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currCodes[seedAtomIdx] = queryAtomLabels[seed.MoleculeFragment.AtomsIdx[seedAtomIdx]];
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for (size_t iter = 0; iter < nIterations; iter++) {
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for (size_t i = 0; i < nv; i++)
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prevCodes[i] = currCodes[i];
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for (size_t seedBondIdx= 0; seedBondIdx< ne; seedBondIdx++) {
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const Bond* bond = seed.MoleculeFragment.Bonds[seedBondIdx];
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unsigned order = queryBondLabels[seed.MoleculeFragment.BondsIdx[seedBondIdx]];
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unsigned atom1= seed.MoleculeFragment.SeedAtomIdxMap.find(bond->getBeginAtomIdx())->second;
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unsigned atom2= seed.MoleculeFragment.SeedAtomIdxMap.find(bond->getEndAtomIdx ())->second;
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unsigned v1 = prevCodes[atom1];
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unsigned v2 = prevCodes[atom2];
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currCodes[atom1] += v2*v2 + (v2 + 23) * (order + 1721);
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currCodes[atom2] += v1*v1 + (v1 + 23) * (order + 1721);
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}
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}
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KeyNumericMetrics::TValue result = 0;
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for(unsigned seedAtomIdx = 0; seedAtomIdx < nv; seedAtomIdx++) {
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unsigned long code = currCodes[seedAtomIdx];
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result += code * (code + 6849) + 29;
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}
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NumericMetrics.Value = result;
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}
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//not implemented yet:
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/*
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void computeFingerprint(const Seed& seed)
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{
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unsigned int radius = seed.getNumBonds();
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if (radius > 5)
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radius = 5;
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ExplicitBitVect *mf = RDKit::MorganFingerprints::getFingerprintAsBitVect(seed.GraphTopology, radius); //SLOW !!!
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// ...
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delete mf;
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NumericMetrics.Field.hasFingerprint = 1;
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}
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*/
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};
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typedef HashKey TKey;
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typedef std::list<FMCS::Graph> TIndexEntry; // hash-key is not unique key
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private:
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std::vector<TIndexEntry> ValueStorage;
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std::map<KeyNumericMetrics::TValue, size_t> NumericIndex; // TIndexEntry
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public:
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// returns computed key, and pointer to index entry with a set of subgraphs corresponding to the key if found.
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// then caller must find exactly matched subgraph in the result set with own search algorithm,
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// including a resolving of collisions of hash key
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TIndexEntry* find(const Seed& seed, const std::vector<unsigned>& queryAtomLabels
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, const std::vector<unsigned>& queryBondLabels
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, TKey& key) { // compute key and find entry
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key.computeKey(seed, queryAtomLabels, queryBondLabels);
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std::map<KeyNumericMetrics::TValue, size_t>::const_iterator
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entryit = NumericIndex.find(key.NumericMetrics.Value);
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if(NumericIndex.end() != entryit)
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return & ValueStorage[entryit->second];
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return NULL; // not found
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}
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//if find() did not found any entry for this key of seed a new entry will be created
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void add(const Seed& seed, TKey& key, TIndexEntry* entry) { // "compute" value and store it in NEW entry if not found
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if(!entry) {
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try {
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ValueStorage.push_back(TIndexEntry());
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} catch(...) {
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return; // not enought memory room to add the item, but it's just a cache
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}
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entry = &ValueStorage.back();
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}
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entry->push_back(seed.Topology);
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if(!NumericIndex.insert( std::pair<KeyNumericMetrics::TValue, size_t>(key.NumericMetrics.Value, ValueStorage.size()-1) ).second)
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return; // not enought memory room to add the item, but it is just cache
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}
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size_t keyssize() const { // for statistics only
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return ValueStorage.size();
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}
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size_t fullsize() const { // for statistics only
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size_t n = 0;
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for(std::vector<TIndexEntry>::const_iterator e = ValueStorage.begin(); e != ValueStorage.end(); e++)
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n += e->size();
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return n;
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}
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};
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}
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}
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